1 /* Alias analysis for trees.
2 Copyright (C) 2004, 2005 Free Software Foundation, Inc.
3 Contributed by Diego Novillo <dnovillo@redhat.com>
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 2, or (at your option)
12 GCC is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
17 You should have received a copy of the GNU General Public License
18 along with GCC; see the file COPYING. If not, write to
19 the Free Software Foundation, 51 Franklin Street, Fifth Floor,
20 Boston, MA 02110-1301, USA. */
24 #include "coretypes.h"
29 #include "hard-reg-set.h"
30 #include "basic-block.h"
34 #include "langhooks.h"
37 #include "diagnostic.h"
38 #include "tree-dump.h"
39 #include "tree-gimple.h"
40 #include "tree-flow.h"
41 #include "tree-inline.h"
42 #include "tree-pass.h"
43 #include "tree-ssa-structalias.h"
46 #include "ipa-type-escape.h"
50 /* Obstack used to hold grouping bitmaps and other temporary bitmaps used by
52 static bitmap_obstack alias_obstack
;
54 /* 'true' after aliases have been computed (see compute_may_aliases). */
55 bool aliases_computed_p
;
57 /* Structure to map a variable to its alias set and keep track of the
58 virtual operands that will be needed to represent it. */
61 /* Variable and its alias set. */
65 /* Total number of virtual operands that will be needed to represent
66 all the aliases of VAR. */
67 long total_alias_vops
;
69 /* Nonzero if the aliases for this memory tag have been grouped
70 already. Used in group_aliases. */
71 unsigned int grouped_p
: 1;
73 /* Set of variables aliased with VAR. This is the exact same
74 information contained in VAR_ANN (VAR)->MAY_ALIASES, but in
75 bitmap form to speed up alias grouping. */
80 /* Counters used to display statistics on alias analysis. */
83 unsigned int alias_queries
;
84 unsigned int alias_mayalias
;
85 unsigned int alias_noalias
;
86 unsigned int simple_queries
;
87 unsigned int simple_resolved
;
88 unsigned int tbaa_queries
;
89 unsigned int tbaa_resolved
;
90 unsigned int structnoaddress_queries
;
91 unsigned int structnoaddress_resolved
;
95 /* Local variables. */
96 static struct alias_stats_d alias_stats
;
98 /* Local functions. */
99 static void compute_flow_insensitive_aliasing (struct alias_info
*);
100 static void dump_alias_stats (FILE *);
101 static bool may_alias_p (tree
, HOST_WIDE_INT
, tree
, HOST_WIDE_INT
, bool);
102 static tree
create_memory_tag (tree type
, bool is_type_tag
);
103 static tree
get_tmt_for (tree
, struct alias_info
*);
104 static tree
get_nmt_for (tree
);
105 static void add_may_alias (tree
, tree
);
106 static void replace_may_alias (tree
, size_t, tree
);
107 static struct alias_info
*init_alias_info (void);
108 static void delete_alias_info (struct alias_info
*);
109 static void compute_flow_sensitive_aliasing (struct alias_info
*);
110 static void setup_pointers_and_addressables (struct alias_info
*);
111 static void create_global_var (void);
112 static void maybe_create_global_var (struct alias_info
*ai
);
113 static void group_aliases (struct alias_info
*);
114 static void set_pt_anything (tree ptr
);
116 /* Global declarations. */
118 /* Call clobbered variables in the function. If bit I is set, then
119 REFERENCED_VARS (I) is call-clobbered. */
120 bitmap call_clobbered_vars
;
122 /* Addressable variables in the function. If bit I is set, then
123 REFERENCED_VARS (I) has had its address taken. Note that
124 CALL_CLOBBERED_VARS and ADDRESSABLE_VARS are not related. An
125 addressable variable is not necessarily call-clobbered (e.g., a
126 local addressable whose address does not escape) and not all
127 call-clobbered variables are addressable (e.g., a local static
129 bitmap addressable_vars
;
131 /* When the program has too many call-clobbered variables and call-sites,
132 this variable is used to represent the clobbering effects of function
133 calls. In these cases, all the call clobbered variables in the program
134 are forced to alias this variable. This reduces compile times by not
135 having to keep track of too many V_MAY_DEF expressions at call sites. */
139 /* Compute may-alias information for every variable referenced in function
142 Alias analysis proceeds in 3 main phases:
144 1- Points-to and escape analysis.
146 This phase walks the use-def chains in the SSA web looking for three
149 * Assignments of the form P_i = &VAR
150 * Assignments of the form P_i = malloc()
151 * Pointers and ADDR_EXPR that escape the current function.
153 The concept of 'escaping' is the same one used in the Java world. When
154 a pointer or an ADDR_EXPR escapes, it means that it has been exposed
155 outside of the current function. So, assignment to global variables,
156 function arguments and returning a pointer are all escape sites, as are
157 conversions between pointers and integers.
159 This is where we are currently limited. Since not everything is renamed
160 into SSA, we lose track of escape properties when a pointer is stashed
161 inside a field in a structure, for instance. In those cases, we are
162 assuming that the pointer does escape.
164 We use escape analysis to determine whether a variable is
165 call-clobbered. Simply put, if an ADDR_EXPR escapes, then the variable
166 is call-clobbered. If a pointer P_i escapes, then all the variables
167 pointed-to by P_i (and its memory tag) also escape.
169 2- Compute flow-sensitive aliases
171 We have two classes of memory tags. Memory tags associated with the
172 pointed-to data type of the pointers in the program. These tags are
173 called "type memory tag" (TMT). The other class are those associated
174 with SSA_NAMEs, called "name memory tag" (NMT). The basic idea is that
175 when adding operands for an INDIRECT_REF *P_i, we will first check
176 whether P_i has a name tag, if it does we use it, because that will have
177 more precise aliasing information. Otherwise, we use the standard type
180 In this phase, we go through all the pointers we found in points-to
181 analysis and create alias sets for the name memory tags associated with
182 each pointer P_i. If P_i escapes, we mark call-clobbered the variables
183 it points to and its tag.
186 3- Compute flow-insensitive aliases
188 This pass will compare the alias set of every type memory tag and every
189 addressable variable found in the program. Given a type memory tag TMT
190 and an addressable variable V. If the alias sets of TMT and V conflict
191 (as computed by may_alias_p), then V is marked as an alias tag and added
192 to the alias set of TMT.
194 For instance, consider the following function:
210 After aliasing analysis has finished, the type memory tag for pointer
211 'p' will have two aliases, namely variables 'a' and 'b'. Every time
212 pointer 'p' is dereferenced, we want to mark the operation as a
213 potential reference to 'a' and 'b'.
223 # p_1 = PHI <p_4(1), p_6(2)>;
225 # a_7 = V_MAY_DEF <a_3>;
226 # b_8 = V_MAY_DEF <b_5>;
229 # a_9 = V_MAY_DEF <a_7>
238 In certain cases, the list of may aliases for a pointer may grow too
239 large. This may cause an explosion in the number of virtual operands
240 inserted in the code. Resulting in increased memory consumption and
243 When the number of virtual operands needed to represent aliased
244 loads and stores grows too large (configurable with @option{--param
245 max-aliased-vops}), alias sets are grouped to avoid severe
246 compile-time slow downs and memory consumption. See group_aliases. */
249 compute_may_aliases (void)
251 struct alias_info
*ai
;
253 memset (&alias_stats
, 0, sizeof (alias_stats
));
255 /* Initialize aliasing information. */
256 ai
= init_alias_info ();
258 /* For each pointer P_i, determine the sets of variables that P_i may
259 point-to. For every addressable variable V, determine whether the
260 address of V escapes the current function, making V call-clobbered
261 (i.e., whether &V is stored in a global variable or if its passed as a
262 function call argument). */
263 compute_points_to_sets (ai
);
265 /* Collect all pointers and addressable variables, compute alias sets,
266 create memory tags for pointers and promote variables whose address is
267 not needed anymore. */
268 setup_pointers_and_addressables (ai
);
270 /* Compute flow-sensitive, points-to based aliasing for all the name
271 memory tags. Note that this pass needs to be done before flow
272 insensitive analysis because it uses the points-to information
273 gathered before to mark call-clobbered type tags. */
274 compute_flow_sensitive_aliasing (ai
);
276 /* Compute type-based flow-insensitive aliasing for all the type
278 compute_flow_insensitive_aliasing (ai
);
280 /* If the program has too many call-clobbered variables and/or function
281 calls, create .GLOBAL_VAR and use it to model call-clobbering
282 semantics at call sites. This reduces the number of virtual operands
283 considerably, improving compile times at the expense of lost
284 aliasing precision. */
285 maybe_create_global_var (ai
);
287 /* Debugging dumps. */
290 dump_referenced_vars (dump_file
);
291 if (dump_flags
& TDF_STATS
)
292 dump_alias_stats (dump_file
);
293 dump_points_to_info (dump_file
);
294 dump_alias_info (dump_file
);
297 /* Deallocate memory used by aliasing data structures. */
298 delete_alias_info (ai
);
301 block_stmt_iterator bsi
;
305 for (bsi
= bsi_start (bb
); !bsi_end_p (bsi
); bsi_next (&bsi
))
307 update_stmt_if_modified (bsi_stmt (bsi
));
314 struct tree_opt_pass pass_may_alias
=
318 compute_may_aliases
, /* execute */
321 0, /* static_pass_number */
322 TV_TREE_MAY_ALIAS
, /* tv_id */
323 PROP_cfg
| PROP_ssa
, /* properties_required */
324 PROP_alias
, /* properties_provided */
325 0, /* properties_destroyed */
326 0, /* todo_flags_start */
327 TODO_dump_func
| TODO_update_ssa
328 | TODO_ggc_collect
| TODO_verify_ssa
329 | TODO_verify_stmts
, /* todo_flags_finish */
334 /* Data structure used to count the number of dereferences to PTR
335 inside an expression. */
343 /* Helper for count_uses_and_derefs. Called by walk_tree to look for
344 (ALIGN/MISALIGNED_)INDIRECT_REF nodes for the pointer passed in DATA. */
347 count_ptr_derefs (tree
*tp
, int *walk_subtrees
, void *data
)
349 struct count_ptr_d
*count_p
= (struct count_ptr_d
*) data
;
351 /* Do not walk inside ADDR_EXPR nodes. In the expression &ptr->fld,
352 pointer 'ptr' is *not* dereferenced, it is simply used to compute
353 the address of 'fld' as 'ptr + offsetof(fld)'. */
354 if (TREE_CODE (*tp
) == ADDR_EXPR
)
360 if (INDIRECT_REF_P (*tp
) && TREE_OPERAND (*tp
, 0) == count_p
->ptr
)
367 /* Count the number of direct and indirect uses for pointer PTR in
368 statement STMT. The two counts are stored in *NUM_USES_P and
369 *NUM_DEREFS_P respectively. *IS_STORE_P is set to 'true' if at
370 least one of those dereferences is a store operation. */
373 count_uses_and_derefs (tree ptr
, tree stmt
, unsigned *num_uses_p
,
374 unsigned *num_derefs_p
, bool *is_store
)
383 /* Find out the total number of uses of PTR in STMT. */
384 FOR_EACH_SSA_TREE_OPERAND (use
, stmt
, i
, SSA_OP_USE
)
388 /* Now count the number of indirect references to PTR. This is
389 truly awful, but we don't have much choice. There are no parent
390 pointers inside INDIRECT_REFs, so an expression like
391 '*x_1 = foo (x_1, *x_1)' needs to be traversed piece by piece to
392 find all the indirect and direct uses of x_1 inside. The only
393 shortcut we can take is the fact that GIMPLE only allows
394 INDIRECT_REFs inside the expressions below. */
395 if (TREE_CODE (stmt
) == MODIFY_EXPR
396 || (TREE_CODE (stmt
) == RETURN_EXPR
397 && TREE_CODE (TREE_OPERAND (stmt
, 0)) == MODIFY_EXPR
)
398 || TREE_CODE (stmt
) == ASM_EXPR
399 || TREE_CODE (stmt
) == CALL_EXPR
)
403 if (TREE_CODE (stmt
) == MODIFY_EXPR
)
405 lhs
= TREE_OPERAND (stmt
, 0);
406 rhs
= TREE_OPERAND (stmt
, 1);
408 else if (TREE_CODE (stmt
) == RETURN_EXPR
)
410 tree e
= TREE_OPERAND (stmt
, 0);
411 lhs
= TREE_OPERAND (e
, 0);
412 rhs
= TREE_OPERAND (e
, 1);
414 else if (TREE_CODE (stmt
) == ASM_EXPR
)
416 lhs
= ASM_OUTPUTS (stmt
);
417 rhs
= ASM_INPUTS (stmt
);
425 if (lhs
&& (TREE_CODE (lhs
) == TREE_LIST
|| EXPR_P (lhs
)))
427 struct count_ptr_d count
;
430 walk_tree (&lhs
, count_ptr_derefs
, &count
, NULL
);
432 *num_derefs_p
= count
.count
;
435 if (rhs
&& (TREE_CODE (rhs
) == TREE_LIST
|| EXPR_P (rhs
)))
437 struct count_ptr_d count
;
440 walk_tree (&rhs
, count_ptr_derefs
, &count
, NULL
);
441 *num_derefs_p
+= count
.count
;
445 gcc_assert (*num_uses_p
>= *num_derefs_p
);
448 /* Initialize the data structures used for alias analysis. */
450 static struct alias_info
*
451 init_alias_info (void)
453 struct alias_info
*ai
;
454 referenced_var_iterator rvi
;
457 bitmap_obstack_initialize (&alias_obstack
);
458 ai
= XCNEW (struct alias_info
);
459 ai
->ssa_names_visited
= sbitmap_alloc (num_ssa_names
);
460 sbitmap_zero (ai
->ssa_names_visited
);
461 VARRAY_TREE_INIT (ai
->processed_ptrs
, 50, "processed_ptrs");
462 ai
->written_vars
= BITMAP_ALLOC (&alias_obstack
);
463 ai
->dereferenced_ptrs_store
= BITMAP_ALLOC (&alias_obstack
);
464 ai
->dereferenced_ptrs_load
= BITMAP_ALLOC (&alias_obstack
);
466 /* If aliases have been computed before, clear existing information. */
467 if (aliases_computed_p
)
471 /* Similarly, clear the set of addressable variables. In this
472 case, we can just clear the set because addressability is
473 only computed here. */
474 bitmap_clear (addressable_vars
);
476 /* Clear flow-insensitive alias information from each symbol. */
477 FOR_EACH_REFERENCED_VAR (var
, rvi
)
479 var_ann_t ann
= var_ann (var
);
481 ann
->is_alias_tag
= 0;
482 ann
->may_aliases
= NULL
;
483 NUM_REFERENCES_CLEAR (ann
);
485 /* Since we are about to re-discover call-clobbered
486 variables, clear the call-clobbered flag. Variables that
487 are intrinsically call-clobbered (globals, local statics,
488 etc) will not be marked by the aliasing code, so we can't
489 remove them from CALL_CLOBBERED_VARS.
491 NB: STRUCT_FIELDS are still call clobbered if they are for
492 a global variable, so we *don't* clear their call clobberedness
493 just because they are tags, though we will clear it if they
494 aren't for global variables. */
495 if (TREE_CODE (var
) == NAME_MEMORY_TAG
496 || TREE_CODE (var
) == TYPE_MEMORY_TAG
497 || !is_global_var (var
))
498 clear_call_clobbered (var
);
501 /* Clear flow-sensitive points-to information from each SSA name. */
502 for (i
= 1; i
< num_ssa_names
; i
++)
504 tree name
= ssa_name (i
);
506 if (!name
|| !POINTER_TYPE_P (TREE_TYPE (name
)))
509 if (SSA_NAME_PTR_INFO (name
))
511 struct ptr_info_def
*pi
= SSA_NAME_PTR_INFO (name
);
513 /* Clear all the flags but keep the name tag to
514 avoid creating new temporaries unnecessarily. If
515 this pointer is found to point to a subset or
516 superset of its former points-to set, then a new
517 tag will need to be created in create_name_tags. */
520 pi
->value_escapes_p
= 0;
521 pi
->is_dereferenced
= 0;
523 bitmap_clear (pi
->pt_vars
);
528 /* Next time, we will need to reset alias information. */
529 aliases_computed_p
= true;
535 /* Deallocate memory used by alias analysis. */
538 delete_alias_info (struct alias_info
*ai
)
541 referenced_var_iterator rvi
;
544 sbitmap_free (ai
->ssa_names_visited
);
545 ai
->processed_ptrs
= NULL
;
547 for (i
= 0; i
< ai
->num_addressable_vars
; i
++)
548 free (ai
->addressable_vars
[i
]);
550 FOR_EACH_REFERENCED_VAR(var
, rvi
)
552 var_ann_t ann
= var_ann (var
);
553 NUM_REFERENCES_CLEAR (ann
);
556 free (ai
->addressable_vars
);
558 for (i
= 0; i
< ai
->num_pointers
; i
++)
559 free (ai
->pointers
[i
]);
562 BITMAP_FREE (ai
->written_vars
);
563 BITMAP_FREE (ai
->dereferenced_ptrs_store
);
564 BITMAP_FREE (ai
->dereferenced_ptrs_load
);
565 bitmap_obstack_release (&alias_obstack
);
568 delete_points_to_sets ();
571 /* Create name tags for all the pointers that have been dereferenced.
572 We only create a name tag for a pointer P if P is found to point to
573 a set of variables (so that we can alias them to *P) or if it is
574 the result of a call to malloc (which means that P cannot point to
575 anything else nor alias any other variable).
577 If two pointers P and Q point to the same set of variables, they
578 are assigned the same name tag. */
581 create_name_tags (void)
584 VEC (tree
, heap
) *with_ptvars
= NULL
;
587 /* Collect the list of pointers with a non-empty points to set. */
588 for (i
= 1; i
< num_ssa_names
; i
++)
590 tree ptr
= ssa_name (i
);
591 struct ptr_info_def
*pi
;
594 || !POINTER_TYPE_P (TREE_TYPE (ptr
))
595 || !SSA_NAME_PTR_INFO (ptr
))
598 pi
= SSA_NAME_PTR_INFO (ptr
);
600 if (pi
->pt_anything
|| !pi
->is_dereferenced
)
602 /* No name tags for pointers that have not been
603 dereferenced or point to an arbitrary location. */
604 pi
->name_mem_tag
= NULL_TREE
;
608 /* Set pt_anything on the pointers without pt_vars filled in so
609 that they are assigned a type tag. */
611 if (pi
->pt_vars
&& !bitmap_empty_p (pi
->pt_vars
))
612 VEC_safe_push (tree
, heap
, with_ptvars
, ptr
);
614 set_pt_anything (ptr
);
617 /* If we didn't find any pointers with pt_vars set, we're done. */
621 /* Now go through the pointers with pt_vars, and find a name tag
622 with the same pt_vars as this pointer, or create one if one
624 for (i
= 0; VEC_iterate (tree
, with_ptvars
, i
, ptr
); i
++)
626 struct ptr_info_def
*pi
= SSA_NAME_PTR_INFO (ptr
);
629 tree old_name_tag
= pi
->name_mem_tag
;
631 /* If PTR points to a set of variables, check if we don't
632 have another pointer Q with the same points-to set before
633 creating a tag. If so, use Q's tag instead of creating a
636 This is important for not creating unnecessary symbols
637 and also for copy propagation. If we ever need to
638 propagate PTR into Q or vice-versa, we would run into
639 problems if they both had different name tags because
640 they would have different SSA version numbers (which
641 would force us to take the name tags in and out of SSA). */
642 for (j
= 0; j
< i
&& VEC_iterate (tree
, with_ptvars
, j
, ptr2
); j
++)
644 struct ptr_info_def
*qi
= SSA_NAME_PTR_INFO (ptr2
);
646 if (bitmap_equal_p (pi
->pt_vars
, qi
->pt_vars
))
648 pi
->name_mem_tag
= qi
->name_mem_tag
;
653 /* If we didn't find a pointer with the same points-to set
654 as PTR, create a new name tag if needed. */
655 if (pi
->name_mem_tag
== NULL_TREE
)
656 pi
->name_mem_tag
= get_nmt_for (ptr
);
658 /* If the new name tag computed for PTR is different than
659 the old name tag that it used to have, then the old tag
660 needs to be removed from the IL, so we mark it for
662 if (old_name_tag
&& old_name_tag
!= pi
->name_mem_tag
)
663 mark_sym_for_renaming (old_name_tag
);
665 TREE_THIS_VOLATILE (pi
->name_mem_tag
)
666 |= TREE_THIS_VOLATILE (TREE_TYPE (TREE_TYPE (ptr
)));
668 /* Mark the new name tag for renaming. */
669 mark_sym_for_renaming (pi
->name_mem_tag
);
672 VEC_free (tree
, heap
, with_ptvars
);
676 /* For every pointer P_i in AI->PROCESSED_PTRS, create may-alias sets for
677 the name memory tag (NMT) associated with P_i. If P_i escapes, then its
678 name tag and the variables it points-to are call-clobbered. Finally, if
679 P_i escapes and we could not determine where it points to, then all the
680 variables in the same alias set as *P_i are marked call-clobbered. This
681 is necessary because we must assume that P_i may take the address of any
682 variable in the same alias set. */
685 compute_flow_sensitive_aliasing (struct alias_info
*ai
)
689 for (i
= 0; i
< VARRAY_ACTIVE_SIZE (ai
->processed_ptrs
); i
++)
691 tree ptr
= VARRAY_TREE (ai
->processed_ptrs
, i
);
692 if (!find_what_p_points_to (ptr
))
693 set_pt_anything (ptr
);
698 for (i
= 0; i
< VARRAY_ACTIVE_SIZE (ai
->processed_ptrs
); i
++)
701 tree ptr
= VARRAY_TREE (ai
->processed_ptrs
, i
);
702 struct ptr_info_def
*pi
= SSA_NAME_PTR_INFO (ptr
);
703 var_ann_t v_ann
= var_ann (SSA_NAME_VAR (ptr
));
706 if (pi
->value_escapes_p
|| pi
->pt_anything
)
708 /* If PTR escapes or may point to anything, then its associated
709 memory tags and pointed-to variables are call-clobbered. */
710 if (pi
->name_mem_tag
)
711 mark_call_clobbered (pi
->name_mem_tag
);
713 if (v_ann
->type_mem_tag
)
714 mark_call_clobbered (v_ann
->type_mem_tag
);
717 EXECUTE_IF_SET_IN_BITMAP (pi
->pt_vars
, 0, j
, bi
)
718 mark_call_clobbered (referenced_var (j
));
721 /* Set up aliasing information for PTR's name memory tag (if it has
722 one). Note that only pointers that have been dereferenced will
723 have a name memory tag. */
724 if (pi
->name_mem_tag
&& pi
->pt_vars
)
725 EXECUTE_IF_SET_IN_BITMAP (pi
->pt_vars
, 0, j
, bi
)
727 add_may_alias (pi
->name_mem_tag
, referenced_var (j
));
728 add_may_alias (v_ann
->type_mem_tag
, referenced_var (j
));
731 /* If the name tag is call clobbered, so is the type tag
732 associated with the base VAR_DECL. */
734 && v_ann
->type_mem_tag
735 && is_call_clobbered (pi
->name_mem_tag
))
736 mark_call_clobbered (v_ann
->type_mem_tag
);
741 /* Compute type-based alias sets. Traverse all the pointers and
742 addressable variables found in setup_pointers_and_addressables.
744 For every pointer P in AI->POINTERS and addressable variable V in
745 AI->ADDRESSABLE_VARS, add V to the may-alias sets of P's type
746 memory tag (TMT) if their alias sets conflict. V is then marked as
747 an alias tag so that the operand scanner knows that statements
748 containing V have aliased operands. */
751 compute_flow_insensitive_aliasing (struct alias_info
*ai
)
755 /* Initialize counter for the total number of virtual operands that
756 aliasing will introduce. When AI->TOTAL_ALIAS_VOPS goes beyond the
757 threshold set by --params max-alias-vops, we enable alias
759 ai
->total_alias_vops
= 0;
761 /* For every pointer P, determine which addressable variables may alias
762 with P's type memory tag. */
763 for (i
= 0; i
< ai
->num_pointers
; i
++)
766 struct alias_map_d
*p_map
= ai
->pointers
[i
];
767 tree tag
= var_ann (p_map
->var
)->type_mem_tag
;
768 var_ann_t tag_ann
= var_ann (tag
);
770 p_map
->total_alias_vops
= 0;
771 p_map
->may_aliases
= BITMAP_ALLOC (&alias_obstack
);
773 for (j
= 0; j
< ai
->num_addressable_vars
; j
++)
775 struct alias_map_d
*v_map
;
778 bool tag_stored_p
, var_stored_p
;
780 v_map
= ai
->addressable_vars
[j
];
782 v_ann
= var_ann (var
);
784 /* Skip memory tags and variables that have never been
785 written to. We also need to check if the variables are
786 call-clobbered because they may be overwritten by
789 Note this is effectively random accessing elements in
790 the sparse bitset, which can be highly inefficient.
791 So we first check the call_clobbered status of the
792 tag and variable before querying the bitmap. */
793 tag_stored_p
= is_call_clobbered (tag
)
794 || bitmap_bit_p (ai
->written_vars
, DECL_UID (tag
));
795 var_stored_p
= is_call_clobbered (var
)
796 || bitmap_bit_p (ai
->written_vars
, DECL_UID (var
));
797 if (!tag_stored_p
&& !var_stored_p
)
800 if (may_alias_p (p_map
->var
, p_map
->set
, var
, v_map
->set
, false))
802 size_t num_tag_refs
, num_var_refs
;
804 num_tag_refs
= NUM_REFERENCES (tag_ann
);
805 num_var_refs
= NUM_REFERENCES (v_ann
);
807 /* Add VAR to TAG's may-aliases set. */
809 /* We should never have a var with subvars here, because
810 they shouldn't get into the set of addressable vars */
811 gcc_assert (!var_can_have_subvars (var
)
812 || get_subvars_for_var (var
) == NULL
);
814 add_may_alias (tag
, var
);
815 /* Update the bitmap used to represent TAG's alias set
816 in case we need to group aliases. */
817 bitmap_set_bit (p_map
->may_aliases
, DECL_UID (var
));
819 /* Update the total number of virtual operands due to
820 aliasing. Since we are adding one more alias to TAG's
821 may-aliases set, the total number of virtual operands due
822 to aliasing will be increased by the number of references
823 made to VAR and TAG (every reference to TAG will also
824 count as a reference to VAR). */
825 ai
->total_alias_vops
+= (num_var_refs
+ num_tag_refs
);
826 p_map
->total_alias_vops
+= (num_var_refs
+ num_tag_refs
);
833 /* Since this analysis is based exclusively on symbols, it fails to
834 handle cases where two pointers P and Q have different memory
835 tags with conflicting alias set numbers but no aliased symbols in
838 For example, suppose that we have two memory tags TMT.1 and TMT.2
841 may-aliases (TMT.1) = { a }
842 may-aliases (TMT.2) = { b }
844 and the alias set number of TMT.1 conflicts with that of TMT.2.
845 Since they don't have symbols in common, loads and stores from
846 TMT.1 and TMT.2 will seem independent of each other, which will
847 lead to the optimizers making invalid transformations (see
848 testsuite/gcc.c-torture/execute/pr15262-[12].c).
850 To avoid this problem, we do a final traversal of AI->POINTERS
851 looking for pairs of pointers that have no aliased symbols in
852 common and yet have conflicting alias set numbers. */
853 for (i
= 0; i
< ai
->num_pointers
; i
++)
856 struct alias_map_d
*p_map1
= ai
->pointers
[i
];
857 tree tag1
= var_ann (p_map1
->var
)->type_mem_tag
;
858 bitmap may_aliases1
= p_map1
->may_aliases
;
860 for (j
= i
+ 1; j
< ai
->num_pointers
; j
++)
862 struct alias_map_d
*p_map2
= ai
->pointers
[j
];
863 tree tag2
= var_ann (p_map2
->var
)->type_mem_tag
;
864 bitmap may_aliases2
= p_map2
->may_aliases
;
866 /* If the pointers may not point to each other, do nothing. */
867 if (!may_alias_p (p_map1
->var
, p_map1
->set
, tag2
, p_map2
->set
, true))
870 /* The two pointers may alias each other. If they already have
871 symbols in common, do nothing. */
872 if (bitmap_intersect_p (may_aliases1
, may_aliases2
))
875 if (!bitmap_empty_p (may_aliases2
))
880 /* Add all the aliases for TAG2 into TAG1's alias set.
881 FIXME, update grouping heuristic counters. */
882 EXECUTE_IF_SET_IN_BITMAP (may_aliases2
, 0, k
, bi
)
883 add_may_alias (tag1
, referenced_var (k
));
884 bitmap_ior_into (may_aliases1
, may_aliases2
);
888 /* Since TAG2 does not have any aliases of its own, add
889 TAG2 itself to the alias set of TAG1. */
890 add_may_alias (tag1
, tag2
);
891 bitmap_set_bit (may_aliases1
, DECL_UID (tag2
));
897 fprintf (dump_file
, "\n%s: Total number of aliased vops: %ld\n",
898 get_name (current_function_decl
),
899 ai
->total_alias_vops
);
901 /* Determine if we need to enable alias grouping. */
902 if (ai
->total_alias_vops
>= MAX_ALIASED_VOPS
)
907 /* Comparison function for qsort used in group_aliases. */
910 total_alias_vops_cmp (const void *p
, const void *q
)
912 const struct alias_map_d
**p1
= (const struct alias_map_d
**)p
;
913 const struct alias_map_d
**p2
= (const struct alias_map_d
**)q
;
914 long n1
= (*p1
)->total_alias_vops
;
915 long n2
= (*p2
)->total_alias_vops
;
917 /* We want to sort in descending order. */
918 return (n1
> n2
? -1 : (n1
== n2
) ? 0 : 1);
921 /* Group all the aliases for TAG to make TAG represent all the
922 variables in its alias set. Update the total number
923 of virtual operands due to aliasing (AI->TOTAL_ALIAS_VOPS). This
924 function will make TAG be the unique alias tag for all the
925 variables in its may-aliases. So, given:
927 may-aliases(TAG) = { V1, V2, V3 }
929 This function will group the variables into:
931 may-aliases(V1) = { TAG }
932 may-aliases(V2) = { TAG }
933 may-aliases(V2) = { TAG } */
936 group_aliases_into (tree tag
, bitmap tag_aliases
, struct alias_info
*ai
)
939 var_ann_t tag_ann
= var_ann (tag
);
940 size_t num_tag_refs
= NUM_REFERENCES (tag_ann
);
943 EXECUTE_IF_SET_IN_BITMAP (tag_aliases
, 0, i
, bi
)
945 tree var
= referenced_var (i
);
946 var_ann_t ann
= var_ann (var
);
948 /* Make TAG the unique alias of VAR. */
949 ann
->is_alias_tag
= 0;
950 ann
->may_aliases
= NULL
;
952 /* Note that VAR and TAG may be the same if the function has no
953 addressable variables (see the discussion at the end of
954 setup_pointers_and_addressables). */
956 add_may_alias (var
, tag
);
958 /* Reduce total number of virtual operands contributed
959 by TAG on behalf of VAR. Notice that the references to VAR
960 itself won't be removed. We will merely replace them with
961 references to TAG. */
962 ai
->total_alias_vops
-= num_tag_refs
;
965 /* We have reduced the number of virtual operands that TAG makes on
966 behalf of all the variables formerly aliased with it. However,
967 we have also "removed" all the virtual operands for TAG itself,
968 so we add them back. */
969 ai
->total_alias_vops
+= num_tag_refs
;
971 /* TAG no longer has any aliases. */
972 tag_ann
->may_aliases
= NULL
;
976 /* Group may-aliases sets to reduce the number of virtual operands due
979 1- Sort the list of pointers in decreasing number of contributed
982 2- Take the first entry in AI->POINTERS and revert the role of
983 the memory tag and its aliases. Usually, whenever an aliased
984 variable Vi is found to alias with a memory tag T, we add Vi
985 to the may-aliases set for T. Meaning that after alias
986 analysis, we will have:
988 may-aliases(T) = { V1, V2, V3, ..., Vn }
990 This means that every statement that references T, will get 'n'
991 virtual operands for each of the Vi tags. But, when alias
992 grouping is enabled, we make T an alias tag and add it to the
993 alias set of all the Vi variables:
995 may-aliases(V1) = { T }
996 may-aliases(V2) = { T }
998 may-aliases(Vn) = { T }
1000 This has two effects: (a) statements referencing T will only get
1001 a single virtual operand, and, (b) all the variables Vi will now
1002 appear to alias each other. So, we lose alias precision to
1003 improve compile time. But, in theory, a program with such a high
1004 level of aliasing should not be very optimizable in the first
1007 3- Since variables may be in the alias set of more than one
1008 memory tag, the grouping done in step (2) needs to be extended
1009 to all the memory tags that have a non-empty intersection with
1010 the may-aliases set of tag T. For instance, if we originally
1011 had these may-aliases sets:
1013 may-aliases(T) = { V1, V2, V3 }
1014 may-aliases(R) = { V2, V4 }
1016 In step (2) we would have reverted the aliases for T as:
1018 may-aliases(V1) = { T }
1019 may-aliases(V2) = { T }
1020 may-aliases(V3) = { T }
1022 But note that now V2 is no longer aliased with R. We could
1023 add R to may-aliases(V2), but we are in the process of
1024 grouping aliases to reduce virtual operands so what we do is
1025 add V4 to the grouping to obtain:
1027 may-aliases(V1) = { T }
1028 may-aliases(V2) = { T }
1029 may-aliases(V3) = { T }
1030 may-aliases(V4) = { T }
1032 4- If the total number of virtual operands due to aliasing is
1033 still above the threshold set by max-alias-vops, go back to (2). */
1036 group_aliases (struct alias_info
*ai
)
1040 /* Sort the POINTERS array in descending order of contributed
1041 virtual operands. */
1042 qsort (ai
->pointers
, ai
->num_pointers
, sizeof (struct alias_map_d
*),
1043 total_alias_vops_cmp
);
1045 /* For every pointer in AI->POINTERS, reverse the roles of its tag
1046 and the tag's may-aliases set. */
1047 for (i
= 0; i
< ai
->num_pointers
; i
++)
1050 tree tag1
= var_ann (ai
->pointers
[i
]->var
)->type_mem_tag
;
1051 bitmap tag1_aliases
= ai
->pointers
[i
]->may_aliases
;
1053 /* Skip tags that have been grouped already. */
1054 if (ai
->pointers
[i
]->grouped_p
)
1057 /* See if TAG1 had any aliases in common with other type tags.
1058 If we find a TAG2 with common aliases with TAG1, add TAG2's
1059 aliases into TAG1. */
1060 for (j
= i
+ 1; j
< ai
->num_pointers
; j
++)
1062 bitmap tag2_aliases
= ai
->pointers
[j
]->may_aliases
;
1064 if (bitmap_intersect_p (tag1_aliases
, tag2_aliases
))
1066 tree tag2
= var_ann (ai
->pointers
[j
]->var
)->type_mem_tag
;
1068 bitmap_ior_into (tag1_aliases
, tag2_aliases
);
1070 /* TAG2 does not need its aliases anymore. */
1071 bitmap_clear (tag2_aliases
);
1072 var_ann (tag2
)->may_aliases
= NULL
;
1074 /* TAG1 is the unique alias of TAG2. */
1075 add_may_alias (tag2
, tag1
);
1077 ai
->pointers
[j
]->grouped_p
= true;
1081 /* Now group all the aliases we collected into TAG1. */
1082 group_aliases_into (tag1
, tag1_aliases
, ai
);
1084 /* If we've reduced total number of virtual operands below the
1086 if (ai
->total_alias_vops
< MAX_ALIASED_VOPS
)
1090 /* Finally, all the variables that have been grouped cannot be in
1091 the may-alias set of name memory tags. Suppose that we have
1092 grouped the aliases in this code so that may-aliases(a) = TMT.20
1096 # a_9 = V_MAY_DEF <a_8>
1098 ... Several modifications to TMT.20 ...
1102 Since p_5 points to 'a', the optimizers will try to propagate 0
1103 into p_5->field, but that is wrong because there have been
1104 modifications to 'TMT.20' in between. To prevent this we have to
1105 replace 'a' with 'TMT.20' in the name tag of p_5. */
1106 for (i
= 0; i
< VARRAY_ACTIVE_SIZE (ai
->processed_ptrs
); i
++)
1109 tree ptr
= VARRAY_TREE (ai
->processed_ptrs
, i
);
1110 tree name_tag
= SSA_NAME_PTR_INFO (ptr
)->name_mem_tag
;
1111 VEC(tree
,gc
) *aliases
;
1114 if (name_tag
== NULL_TREE
)
1117 aliases
= var_ann (name_tag
)->may_aliases
;
1118 for (j
= 0; VEC_iterate (tree
, aliases
, j
, alias
); j
++)
1120 var_ann_t ann
= var_ann (alias
);
1122 if ((!MTAG_P (alias
)
1123 || TREE_CODE (alias
) == STRUCT_FIELD_TAG
)
1124 && ann
->may_aliases
)
1128 gcc_assert (VEC_length (tree
, ann
->may_aliases
) == 1);
1130 new_alias
= VEC_index (tree
, ann
->may_aliases
, 0);
1131 replace_may_alias (name_tag
, j
, new_alias
);
1138 "%s: Total number of aliased vops after grouping: %ld%s\n",
1139 get_name (current_function_decl
),
1140 ai
->total_alias_vops
,
1141 (ai
->total_alias_vops
< 0) ? " (negative values are OK)" : "");
1145 /* Create a new alias set entry for VAR in AI->ADDRESSABLE_VARS. */
1148 create_alias_map_for (tree var
, struct alias_info
*ai
)
1150 struct alias_map_d
*alias_map
;
1151 alias_map
= XCNEW (struct alias_map_d
);
1152 alias_map
->var
= var
;
1153 alias_map
->set
= get_alias_set (var
);
1154 ai
->addressable_vars
[ai
->num_addressable_vars
++] = alias_map
;
1158 /* Create memory tags for all the dereferenced pointers and build the
1159 ADDRESSABLE_VARS and POINTERS arrays used for building the may-alias
1160 sets. Based on the address escape and points-to information collected
1161 earlier, this pass will also clear the TREE_ADDRESSABLE flag from those
1162 variables whose address is not needed anymore. */
1165 setup_pointers_and_addressables (struct alias_info
*ai
)
1167 size_t n_vars
, num_addressable_vars
, num_pointers
;
1168 referenced_var_iterator rvi
;
1170 VEC (tree
, heap
) *varvec
= NULL
;
1171 safe_referenced_var_iterator srvi
;
1173 /* Size up the arrays ADDRESSABLE_VARS and POINTERS. */
1174 num_addressable_vars
= num_pointers
= 0;
1176 FOR_EACH_REFERENCED_VAR (var
, rvi
)
1178 if (may_be_aliased (var
))
1179 num_addressable_vars
++;
1181 if (POINTER_TYPE_P (TREE_TYPE (var
)))
1183 /* Since we don't keep track of volatile variables, assume that
1184 these pointers are used in indirect store operations. */
1185 if (TREE_THIS_VOLATILE (var
))
1186 bitmap_set_bit (ai
->dereferenced_ptrs_store
, DECL_UID (var
));
1192 /* Create ADDRESSABLE_VARS and POINTERS. Note that these arrays are
1193 always going to be slightly bigger than we actually need them
1194 because some TREE_ADDRESSABLE variables will be marked
1195 non-addressable below and only pointers with unique type tags are
1196 going to be added to POINTERS. */
1197 ai
->addressable_vars
= XCNEWVEC (struct alias_map_d
*, num_addressable_vars
);
1198 ai
->pointers
= XCNEWVEC (struct alias_map_d
*, num_pointers
);
1199 ai
->num_addressable_vars
= 0;
1200 ai
->num_pointers
= 0;
1202 /* Since we will be creating type memory tags within this loop, cache the
1203 value of NUM_REFERENCED_VARS to avoid processing the additional tags
1205 n_vars
= num_referenced_vars
;
1207 FOR_EACH_REFERENCED_VAR_SAFE (var
, varvec
, srvi
)
1209 var_ann_t v_ann
= var_ann (var
);
1212 /* Name memory tags already have flow-sensitive aliasing
1213 information, so they need not be processed by
1214 compute_flow_insensitive_aliasing. Similarly, type memory
1215 tags are already accounted for when we process their
1218 Structure fields, on the other hand, have to have some of this
1219 information processed for them, but it's pointless to mark them
1220 non-addressable (since they are fake variables anyway). */
1221 if (MTAG_P (var
) && TREE_CODE (var
) != STRUCT_FIELD_TAG
)
1224 /* Remove the ADDRESSABLE flag from every addressable variable whose
1225 address is not needed anymore. This is caused by the propagation
1226 of ADDR_EXPR constants into INDIRECT_REF expressions and the
1227 removal of dead pointer assignments done by the early scalar
1229 if (TREE_ADDRESSABLE (var
))
1231 if (!bitmap_bit_p (addressable_vars
, DECL_UID (var
))
1232 && TREE_CODE (var
) != RESULT_DECL
1233 && !is_global_var (var
))
1235 bool okay_to_mark
= true;
1237 /* Since VAR is now a regular GIMPLE register, we will need
1238 to rename VAR into SSA afterwards. */
1239 mark_sym_for_renaming (var
);
1241 /* If VAR can have sub-variables, and any of its
1242 sub-variables has its address taken, then we cannot
1243 remove the addressable flag from VAR. */
1244 if (var_can_have_subvars (var
)
1245 && (svars
= get_subvars_for_var (var
)))
1249 for (sv
= svars
; sv
; sv
= sv
->next
)
1251 if (bitmap_bit_p (addressable_vars
, DECL_UID (sv
->var
)))
1252 okay_to_mark
= false;
1253 mark_sym_for_renaming (sv
->var
);
1257 /* The address of VAR is not needed, remove the
1258 addressable bit, so that it can be optimized as a
1259 regular variable. */
1261 mark_non_addressable (var
);
1265 /* Global variables and addressable locals may be aliased. Create an
1266 entry in ADDRESSABLE_VARS for VAR. */
1267 if (may_be_aliased (var
)
1268 && (!var_can_have_subvars (var
)
1269 || get_subvars_for_var (var
) == NULL
))
1271 create_alias_map_for (var
, ai
);
1272 mark_sym_for_renaming (var
);
1275 /* Add pointer variables that have been dereferenced to the POINTERS
1276 array and create a type memory tag for them. */
1277 if (POINTER_TYPE_P (TREE_TYPE (var
)))
1279 if ((bitmap_bit_p (ai
->dereferenced_ptrs_store
, DECL_UID (var
))
1280 || bitmap_bit_p (ai
->dereferenced_ptrs_load
, DECL_UID (var
))))
1285 /* If pointer VAR still doesn't have a memory tag
1286 associated with it, create it now or re-use an
1288 tag
= get_tmt_for (var
, ai
);
1289 t_ann
= var_ann (tag
);
1291 /* The type tag will need to be renamed into SSA
1292 afterwards. Note that we cannot do this inside
1293 get_tmt_for because aliasing may run multiple times
1294 and we only create type tags the first time. */
1295 mark_sym_for_renaming (tag
);
1297 /* Similarly, if pointer VAR used to have another type
1298 tag, we will need to process it in the renamer to
1299 remove the stale virtual operands. */
1300 if (v_ann
->type_mem_tag
)
1301 mark_sym_for_renaming (v_ann
->type_mem_tag
);
1303 /* Associate the tag with pointer VAR. */
1304 v_ann
->type_mem_tag
= tag
;
1306 /* If pointer VAR has been used in a store operation,
1307 then its memory tag must be marked as written-to. */
1308 if (bitmap_bit_p (ai
->dereferenced_ptrs_store
, DECL_UID (var
)))
1309 bitmap_set_bit (ai
->written_vars
, DECL_UID (tag
));
1311 /* If pointer VAR is a global variable or a PARM_DECL,
1312 then its memory tag should be considered a global
1314 if (TREE_CODE (var
) == PARM_DECL
|| is_global_var (var
))
1315 mark_call_clobbered (tag
);
1317 /* All the dereferences of pointer VAR count as
1318 references of TAG. Since TAG can be associated with
1319 several pointers, add the dereferences of VAR to the
1321 NUM_REFERENCES_SET (t_ann
,
1322 NUM_REFERENCES (t_ann
)
1323 + NUM_REFERENCES (v_ann
));
1327 /* The pointer has not been dereferenced. If it had a
1328 type memory tag, remove it and mark the old tag for
1329 renaming to remove it out of the IL. */
1330 var_ann_t ann
= var_ann (var
);
1331 tree tag
= ann
->type_mem_tag
;
1334 mark_sym_for_renaming (tag
);
1335 ann
->type_mem_tag
= NULL_TREE
;
1340 VEC_free (tree
, heap
, varvec
);
1344 /* Determine whether to use .GLOBAL_VAR to model call clobbering semantics. At
1345 every call site, we need to emit V_MAY_DEF expressions to represent the
1346 clobbering effects of the call for variables whose address escapes the
1349 One approach is to group all call-clobbered variables into a single
1350 representative that is used as an alias of every call-clobbered variable
1351 (.GLOBAL_VAR). This works well, but it ties the optimizer hands because
1352 references to any call clobbered variable is a reference to .GLOBAL_VAR.
1354 The second approach is to emit a clobbering V_MAY_DEF for every
1355 call-clobbered variable at call sites. This is the preferred way in terms
1356 of optimization opportunities but it may create too many V_MAY_DEF operands
1357 if there are many call clobbered variables and function calls in the
1360 To decide whether or not to use .GLOBAL_VAR we multiply the number of
1361 function calls found by the number of call-clobbered variables. If that
1362 product is beyond a certain threshold, as determined by the parameterized
1363 values shown below, we use .GLOBAL_VAR.
1365 FIXME. This heuristic should be improved. One idea is to use several
1366 .GLOBAL_VARs of different types instead of a single one. The thresholds
1367 have been derived from a typical bootstrap cycle, including all target
1368 libraries. Compile times were found increase by ~1% compared to using
1372 maybe_create_global_var (struct alias_info
*ai
)
1374 unsigned i
, n_clobbered
;
1377 /* No need to create it, if we have one already. */
1378 if (global_var
== NULL_TREE
)
1380 /* Count all the call-clobbered variables. */
1382 EXECUTE_IF_SET_IN_BITMAP (call_clobbered_vars
, 0, i
, bi
)
1387 /* If the number of virtual operands that would be needed to
1388 model all the call-clobbered variables is larger than
1389 GLOBAL_VAR_THRESHOLD, create .GLOBAL_VAR.
1391 Also create .GLOBAL_VAR if there are no call-clobbered
1392 variables and the program contains a mixture of pure/const
1393 and regular function calls. This is to avoid the problem
1394 described in PR 20115:
1397 int func_pure (void) { return X; }
1398 int func_non_pure (int a) { X += a; }
1401 int a = func_pure ();
1407 Since foo() has no call-clobbered variables, there is
1408 no relationship between the calls to func_pure and
1409 func_non_pure. Since func_pure has no side-effects, value
1410 numbering optimizations elide the second call to func_pure.
1411 So, if we have some pure/const and some regular calls in the
1412 program we create .GLOBAL_VAR to avoid missing these
1414 if (ai
->num_calls_found
* n_clobbered
>= (size_t) GLOBAL_VAR_THRESHOLD
1415 || (n_clobbered
== 0
1416 && ai
->num_calls_found
> 0
1417 && ai
->num_pure_const_calls_found
> 0
1418 && ai
->num_calls_found
> ai
->num_pure_const_calls_found
))
1419 create_global_var ();
1422 /* Mark all call-clobbered symbols for renaming. Since the initial
1423 rewrite into SSA ignored all call sites, we may need to rename
1424 .GLOBAL_VAR and the call-clobbered variables. */
1425 EXECUTE_IF_SET_IN_BITMAP (call_clobbered_vars
, 0, i
, bi
)
1427 tree var
= referenced_var (i
);
1429 /* If the function has calls to clobbering functions and
1430 .GLOBAL_VAR has been created, make it an alias for all
1431 call-clobbered variables. */
1432 if (global_var
&& var
!= global_var
)
1435 add_may_alias (var
, global_var
);
1436 if (var_can_have_subvars (var
)
1437 && (svars
= get_subvars_for_var (var
)))
1440 for (sv
= svars
; sv
; sv
= sv
->next
)
1441 mark_sym_for_renaming (sv
->var
);
1445 mark_sym_for_renaming (var
);
1450 /* Return TRUE if pointer PTR may point to variable VAR.
1452 MEM_ALIAS_SET is the alias set for the memory location pointed-to by PTR
1453 This is needed because when checking for type conflicts we are
1454 interested in the alias set of the memory location pointed-to by
1455 PTR. The alias set of PTR itself is irrelevant.
1457 VAR_ALIAS_SET is the alias set for VAR. */
1460 may_alias_p (tree ptr
, HOST_WIDE_INT mem_alias_set
,
1461 tree var
, HOST_WIDE_INT var_alias_set
,
1462 bool alias_set_only
)
1466 alias_stats
.alias_queries
++;
1467 alias_stats
.simple_queries
++;
1469 /* By convention, a variable cannot alias itself. */
1470 mem
= var_ann (ptr
)->type_mem_tag
;
1473 alias_stats
.alias_noalias
++;
1474 alias_stats
.simple_resolved
++;
1478 /* If -fargument-noalias-global is >1, pointer arguments may
1479 not point to global variables. */
1480 if (flag_argument_noalias
> 1 && is_global_var (var
)
1481 && TREE_CODE (ptr
) == PARM_DECL
)
1483 alias_stats
.alias_noalias
++;
1484 alias_stats
.simple_resolved
++;
1488 /* If either MEM or VAR is a read-only global and the other one
1489 isn't, then PTR cannot point to VAR. */
1490 if ((unmodifiable_var_p (mem
) && !unmodifiable_var_p (var
))
1491 || (unmodifiable_var_p (var
) && !unmodifiable_var_p (mem
)))
1493 alias_stats
.alias_noalias
++;
1494 alias_stats
.simple_resolved
++;
1498 gcc_assert (TREE_CODE (mem
) == TYPE_MEMORY_TAG
);
1500 alias_stats
.tbaa_queries
++;
1502 /* If the alias sets don't conflict then MEM cannot alias VAR. */
1503 if (!alias_sets_conflict_p (mem_alias_set
, var_alias_set
))
1505 alias_stats
.alias_noalias
++;
1506 alias_stats
.tbaa_resolved
++;
1510 /* If var is a record or union type, ptr cannot point into var
1511 unless there is some operation explicit address operation in the
1512 program that can reference a field of the ptr's dereferenced
1513 type. This also assumes that the types of both var and ptr are
1514 contained within the compilation unit, and that there is no fancy
1515 addressing arithmetic associated with any of the types
1518 if ((mem_alias_set
!= 0) && (var_alias_set
!= 0))
1520 tree ptr_type
= TREE_TYPE (ptr
);
1521 tree var_type
= TREE_TYPE (var
);
1523 /* The star count is -1 if the type at the end of the pointer_to
1524 chain is not a record or union type. */
1525 if ((!alias_set_only
) &&
1526 ipa_type_escape_star_count_of_interesting_type (var_type
) >= 0)
1528 int ptr_star_count
= 0;
1530 /* Ipa_type_escape_star_count_of_interesting_type is a little to
1531 restrictive for the pointer type, need to allow pointers to
1532 primitive types as long as those types cannot be pointers
1534 while (POINTER_TYPE_P (ptr_type
))
1535 /* Strip the *'s off. */
1537 ptr_type
= TREE_TYPE (ptr_type
);
1541 /* There does not appear to be a better test to see if the
1542 pointer type was one of the pointer to everything
1545 if (ptr_star_count
> 0)
1547 alias_stats
.structnoaddress_queries
++;
1548 if (ipa_type_escape_field_does_not_clobber_p (var_type
,
1551 alias_stats
.structnoaddress_resolved
++;
1552 alias_stats
.alias_noalias
++;
1556 else if (ptr_star_count
== 0)
1558 /* If ptr_type was not really a pointer to type, it cannot
1560 alias_stats
.structnoaddress_queries
++;
1561 alias_stats
.structnoaddress_resolved
++;
1562 alias_stats
.alias_noalias
++;
1568 alias_stats
.alias_mayalias
++;
1573 /* Add ALIAS to the set of variables that may alias VAR. */
1576 add_may_alias (tree var
, tree alias
)
1579 var_ann_t v_ann
= get_var_ann (var
);
1580 var_ann_t a_ann
= get_var_ann (alias
);
1583 /* Don't allow self-referential aliases. */
1584 gcc_assert (var
!= alias
);
1586 /* ALIAS must be addressable if it's being added to an alias set. */
1588 TREE_ADDRESSABLE (alias
) = 1;
1590 gcc_assert (may_be_aliased (alias
));
1593 if (v_ann
->may_aliases
== NULL
)
1594 v_ann
->may_aliases
= VEC_alloc (tree
, gc
, 2);
1596 /* Avoid adding duplicates. */
1597 for (i
= 0; VEC_iterate (tree
, v_ann
->may_aliases
, i
, al
); i
++)
1601 /* If VAR is a call-clobbered variable, so is its new ALIAS.
1602 FIXME, call-clobbering should only depend on whether an address
1603 escapes. It should be independent of aliasing. */
1604 if (is_call_clobbered (var
))
1605 mark_call_clobbered (alias
);
1607 /* Likewise. If ALIAS is call-clobbered, so is VAR. */
1608 else if (is_call_clobbered (alias
))
1609 mark_call_clobbered (var
);
1611 VEC_safe_push (tree
, gc
, v_ann
->may_aliases
, alias
);
1612 a_ann
->is_alias_tag
= 1;
1616 /* Replace alias I in the alias sets of VAR with NEW_ALIAS. */
1619 replace_may_alias (tree var
, size_t i
, tree new_alias
)
1621 var_ann_t v_ann
= var_ann (var
);
1622 VEC_replace (tree
, v_ann
->may_aliases
, i
, new_alias
);
1624 /* If VAR is a call-clobbered variable, so is NEW_ALIAS.
1625 FIXME, call-clobbering should only depend on whether an address
1626 escapes. It should be independent of aliasing. */
1627 if (is_call_clobbered (var
))
1628 mark_call_clobbered (new_alias
);
1630 /* Likewise. If NEW_ALIAS is call-clobbered, so is VAR. */
1631 else if (is_call_clobbered (new_alias
))
1632 mark_call_clobbered (var
);
1636 /* Mark pointer PTR as pointing to an arbitrary memory location. */
1639 set_pt_anything (tree ptr
)
1641 struct ptr_info_def
*pi
= get_ptr_info (ptr
);
1643 pi
->pt_anything
= 1;
1646 /* The pointer used to have a name tag, but we now found it pointing
1647 to an arbitrary location. The name tag needs to be renamed and
1648 disassociated from PTR. */
1649 if (pi
->name_mem_tag
)
1651 mark_sym_for_renaming (pi
->name_mem_tag
);
1652 pi
->name_mem_tag
= NULL_TREE
;
1657 /* Return true if STMT is an "escape" site from the current function. Escape
1658 sites those statements which might expose the address of a variable
1659 outside the current function. STMT is an escape site iff:
1661 1- STMT is a function call, or
1662 2- STMT is an __asm__ expression, or
1663 3- STMT is an assignment to a non-local variable, or
1664 4- STMT is a return statement.
1666 AI points to the alias information collected so far. */
1669 is_escape_site (tree stmt
, struct alias_info
*ai
)
1671 tree call
= get_call_expr_in (stmt
);
1672 if (call
!= NULL_TREE
)
1674 ai
->num_calls_found
++;
1676 if (!TREE_SIDE_EFFECTS (call
))
1677 ai
->num_pure_const_calls_found
++;
1681 else if (TREE_CODE (stmt
) == ASM_EXPR
)
1683 else if (TREE_CODE (stmt
) == MODIFY_EXPR
)
1685 tree lhs
= TREE_OPERAND (stmt
, 0);
1687 /* Get to the base of _REF nodes. */
1688 if (TREE_CODE (lhs
) != SSA_NAME
)
1689 lhs
= get_base_address (lhs
);
1691 /* If we couldn't recognize the LHS of the assignment, assume that it
1692 is a non-local store. */
1693 if (lhs
== NULL_TREE
)
1696 /* If the RHS is a conversion between a pointer and an integer, the
1697 pointer escapes since we can't track the integer. */
1698 if ((TREE_CODE (TREE_OPERAND (stmt
, 1)) == NOP_EXPR
1699 || TREE_CODE (TREE_OPERAND (stmt
, 1)) == CONVERT_EXPR
1700 || TREE_CODE (TREE_OPERAND (stmt
, 1)) == VIEW_CONVERT_EXPR
)
1701 && POINTER_TYPE_P (TREE_TYPE (TREE_OPERAND
1702 (TREE_OPERAND (stmt
, 1), 0)))
1703 && !POINTER_TYPE_P (TREE_TYPE (TREE_OPERAND (stmt
, 1))))
1706 /* If the LHS is an SSA name, it can't possibly represent a non-local
1708 if (TREE_CODE (lhs
) == SSA_NAME
)
1711 /* FIXME: LHS is not an SSA_NAME. Even if it's an assignment to a
1712 local variables we cannot be sure if it will escape, because we
1713 don't have information about objects not in SSA form. Need to
1714 implement something along the lines of
1716 J.-D. Choi, M. Gupta, M. J. Serrano, V. C. Sreedhar, and S. P.
1717 Midkiff, ``Escape analysis for java,'' in Proceedings of the
1718 Conference on Object-Oriented Programming Systems, Languages, and
1719 Applications (OOPSLA), pp. 1-19, 1999. */
1722 else if (TREE_CODE (stmt
) == RETURN_EXPR
)
1728 /* Create a new memory tag of type TYPE.
1729 Does NOT push it into the current binding. */
1732 create_tag_raw (enum tree_code code
, tree type
, const char *prefix
)
1737 /* Make the type of the variable writable. */
1738 new_type
= build_type_variant (type
, 0, 0);
1739 TYPE_ATTRIBUTES (new_type
) = TYPE_ATTRIBUTES (type
);
1741 tmp_var
= build_decl (code
, create_tmp_var_name (prefix
),
1743 /* Make the variable writable. */
1744 TREE_READONLY (tmp_var
) = 0;
1746 /* It doesn't start out global. */
1747 MTAG_GLOBAL (tmp_var
) = 0;
1748 TREE_STATIC (tmp_var
) = 0;
1749 TREE_USED (tmp_var
) = 1;
1754 /* Create a new memory tag of type TYPE. If IS_TYPE_TAG is true, the tag
1755 is considered to represent all the pointers whose pointed-to types are
1756 in the same alias set class. Otherwise, the tag represents a single
1757 SSA_NAME pointer variable. */
1760 create_memory_tag (tree type
, bool is_type_tag
)
1763 tree tag
= create_tag_raw (is_type_tag
? TYPE_MEMORY_TAG
: NAME_MEMORY_TAG
,
1764 type
, (is_type_tag
) ? "TMT" : "NMT");
1766 /* By default, memory tags are local variables. Alias analysis will
1767 determine whether they should be considered globals. */
1768 DECL_CONTEXT (tag
) = current_function_decl
;
1770 /* Memory tags are by definition addressable. */
1771 TREE_ADDRESSABLE (tag
) = 1;
1773 ann
= get_var_ann (tag
);
1774 ann
->type_mem_tag
= NULL_TREE
;
1776 /* Add the tag to the symbol table. */
1777 add_referenced_tmp_var (tag
);
1783 /* Create a name memory tag to represent a specific SSA_NAME pointer P_i.
1784 This is used if P_i has been found to point to a specific set of
1785 variables or to a non-aliased memory location like the address returned
1786 by malloc functions. */
1789 get_nmt_for (tree ptr
)
1791 struct ptr_info_def
*pi
= get_ptr_info (ptr
);
1792 tree tag
= pi
->name_mem_tag
;
1794 if (tag
== NULL_TREE
)
1795 tag
= create_memory_tag (TREE_TYPE (TREE_TYPE (ptr
)), false);
1797 /* If PTR is a PARM_DECL, it points to a global variable or malloc,
1798 then its name tag should be considered a global variable. */
1799 if (TREE_CODE (SSA_NAME_VAR (ptr
)) == PARM_DECL
1800 || pi
->pt_global_mem
)
1801 mark_call_clobbered (tag
);
1807 /* Return the type memory tag associated to pointer PTR. A memory tag is an
1808 artificial variable that represents the memory location pointed-to by
1809 PTR. It is used to model the effects of pointer de-references on
1810 addressable variables.
1812 AI points to the data gathered during alias analysis. This function
1813 populates the array AI->POINTERS. */
1816 get_tmt_for (tree ptr
, struct alias_info
*ai
)
1820 tree tag_type
= TREE_TYPE (TREE_TYPE (ptr
));
1821 HOST_WIDE_INT tag_set
= get_alias_set (tag_type
);
1823 /* To avoid creating unnecessary memory tags, only create one memory tag
1824 per alias set class. Note that it may be tempting to group
1825 memory tags based on conflicting alias sets instead of
1826 equivalence. That would be wrong because alias sets are not
1827 necessarily transitive (as demonstrated by the libstdc++ test
1828 23_containers/vector/cons/4.cc). Given three alias sets A, B, C
1829 such that conflicts (A, B) == true and conflicts (A, C) == true,
1830 it does not necessarily follow that conflicts (B, C) == true. */
1831 for (i
= 0, tag
= NULL_TREE
; i
< ai
->num_pointers
; i
++)
1833 struct alias_map_d
*curr
= ai
->pointers
[i
];
1834 tree curr_tag
= var_ann (curr
->var
)->type_mem_tag
;
1835 if (tag_set
== curr
->set
1836 && TYPE_READONLY (tag_type
) == TYPE_READONLY (TREE_TYPE (curr_tag
)))
1843 /* If VAR cannot alias with any of the existing memory tags, create a new
1844 tag for PTR and add it to the POINTERS array. */
1845 if (tag
== NULL_TREE
)
1847 struct alias_map_d
*alias_map
;
1849 /* If PTR did not have a type tag already, create a new TMT.*
1850 artificial variable representing the memory location
1851 pointed-to by PTR. */
1852 if (var_ann (ptr
)->type_mem_tag
== NULL_TREE
)
1853 tag
= create_memory_tag (tag_type
, true);
1855 tag
= var_ann (ptr
)->type_mem_tag
;
1857 /* Add PTR to the POINTERS array. Note that we are not interested in
1858 PTR's alias set. Instead, we cache the alias set for the memory that
1860 alias_map
= XCNEW (struct alias_map_d
);
1861 alias_map
->var
= ptr
;
1862 alias_map
->set
= tag_set
;
1863 ai
->pointers
[ai
->num_pointers
++] = alias_map
;
1866 /* If the pointed-to type is volatile, so is the tag. */
1867 TREE_THIS_VOLATILE (tag
) |= TREE_THIS_VOLATILE (tag_type
);
1869 /* Make sure that the type tag has the same alias set as the
1871 gcc_assert (tag_set
== get_alias_set (tag
));
1873 /* If PTR's pointed-to type is read-only, then TAG's type must also
1875 gcc_assert (TYPE_READONLY (tag_type
) == TYPE_READONLY (TREE_TYPE (tag
)));
1881 /* Create GLOBAL_VAR, an artificial global variable to act as a
1882 representative of all the variables that may be clobbered by function
1886 create_global_var (void)
1888 global_var
= build_decl (VAR_DECL
, get_identifier (".GLOBAL_VAR"),
1890 DECL_ARTIFICIAL (global_var
) = 1;
1891 TREE_READONLY (global_var
) = 0;
1892 DECL_EXTERNAL (global_var
) = 1;
1893 TREE_STATIC (global_var
) = 1;
1894 TREE_USED (global_var
) = 1;
1895 DECL_CONTEXT (global_var
) = NULL_TREE
;
1896 TREE_THIS_VOLATILE (global_var
) = 0;
1897 TREE_ADDRESSABLE (global_var
) = 0;
1899 add_referenced_tmp_var (global_var
);
1900 mark_sym_for_renaming (global_var
);
1904 /* Dump alias statistics on FILE. */
1907 dump_alias_stats (FILE *file
)
1909 const char *funcname
1910 = lang_hooks
.decl_printable_name (current_function_decl
, 2);
1911 fprintf (file
, "\nAlias statistics for %s\n\n", funcname
);
1912 fprintf (file
, "Total alias queries:\t%u\n", alias_stats
.alias_queries
);
1913 fprintf (file
, "Total alias mayalias results:\t%u\n",
1914 alias_stats
.alias_mayalias
);
1915 fprintf (file
, "Total alias noalias results:\t%u\n",
1916 alias_stats
.alias_noalias
);
1917 fprintf (file
, "Total simple queries:\t%u\n",
1918 alias_stats
.simple_queries
);
1919 fprintf (file
, "Total simple resolved:\t%u\n",
1920 alias_stats
.simple_resolved
);
1921 fprintf (file
, "Total TBAA queries:\t%u\n",
1922 alias_stats
.tbaa_queries
);
1923 fprintf (file
, "Total TBAA resolved:\t%u\n",
1924 alias_stats
.tbaa_resolved
);
1925 fprintf (file
, "Total non-addressable structure type queries:\t%u\n",
1926 alias_stats
.structnoaddress_queries
);
1927 fprintf (file
, "Total non-addressable structure type resolved:\t%u\n",
1928 alias_stats
.structnoaddress_resolved
);
1932 /* Dump alias information on FILE. */
1935 dump_alias_info (FILE *file
)
1938 const char *funcname
1939 = lang_hooks
.decl_printable_name (current_function_decl
, 2);
1940 referenced_var_iterator rvi
;
1943 fprintf (file
, "\nFlow-insensitive alias information for %s\n\n", funcname
);
1945 fprintf (file
, "Aliased symbols\n\n");
1947 FOR_EACH_REFERENCED_VAR (var
, rvi
)
1949 if (may_be_aliased (var
))
1950 dump_variable (file
, var
);
1953 fprintf (file
, "\nDereferenced pointers\n\n");
1955 FOR_EACH_REFERENCED_VAR (var
, rvi
)
1957 var_ann_t ann
= var_ann (var
);
1958 if (ann
->type_mem_tag
)
1959 dump_variable (file
, var
);
1962 fprintf (file
, "\nType memory tags\n\n");
1964 FOR_EACH_REFERENCED_VAR (var
, rvi
)
1966 if (TREE_CODE (var
) == TYPE_MEMORY_TAG
)
1967 dump_variable (file
, var
);
1970 fprintf (file
, "\n\nFlow-sensitive alias information for %s\n\n", funcname
);
1972 fprintf (file
, "SSA_NAME pointers\n\n");
1973 for (i
= 1; i
< num_ssa_names
; i
++)
1975 tree ptr
= ssa_name (i
);
1976 struct ptr_info_def
*pi
;
1978 if (ptr
== NULL_TREE
)
1981 pi
= SSA_NAME_PTR_INFO (ptr
);
1982 if (!SSA_NAME_IN_FREE_LIST (ptr
)
1984 && pi
->name_mem_tag
)
1985 dump_points_to_info_for (file
, ptr
);
1988 fprintf (file
, "\nName memory tags\n\n");
1990 FOR_EACH_REFERENCED_VAR (var
, rvi
)
1992 if (TREE_CODE (var
) == NAME_MEMORY_TAG
)
1993 dump_variable (file
, var
);
1996 fprintf (file
, "\n");
2000 /* Dump alias information on stderr. */
2003 debug_alias_info (void)
2005 dump_alias_info (stderr
);
2009 /* Return the alias information associated with pointer T. It creates a
2010 new instance if none existed. */
2012 struct ptr_info_def
*
2013 get_ptr_info (tree t
)
2015 struct ptr_info_def
*pi
;
2017 gcc_assert (POINTER_TYPE_P (TREE_TYPE (t
)));
2019 pi
= SSA_NAME_PTR_INFO (t
);
2022 pi
= GGC_NEW (struct ptr_info_def
);
2023 memset ((void *)pi
, 0, sizeof (*pi
));
2024 SSA_NAME_PTR_INFO (t
) = pi
;
2031 /* Dump points-to information for SSA_NAME PTR into FILE. */
2034 dump_points_to_info_for (FILE *file
, tree ptr
)
2036 struct ptr_info_def
*pi
= SSA_NAME_PTR_INFO (ptr
);
2038 print_generic_expr (file
, ptr
, dump_flags
);
2042 if (pi
->name_mem_tag
)
2044 fprintf (file
, ", name memory tag: ");
2045 print_generic_expr (file
, pi
->name_mem_tag
, dump_flags
);
2048 if (pi
->is_dereferenced
)
2049 fprintf (file
, ", is dereferenced");
2051 if (pi
->value_escapes_p
)
2052 fprintf (file
, ", its value escapes");
2054 if (pi
->pt_anything
)
2055 fprintf (file
, ", points-to anything");
2058 fprintf (file
, ", points-to NULL");
2065 fprintf (file
, ", points-to vars: { ");
2066 EXECUTE_IF_SET_IN_BITMAP (pi
->pt_vars
, 0, ix
, bi
)
2068 print_generic_expr (file
, referenced_var (ix
), dump_flags
);
2069 fprintf (file
, " ");
2071 fprintf (file
, "}");
2075 fprintf (file
, "\n");
2079 /* Dump points-to information for VAR into stderr. */
2082 debug_points_to_info_for (tree var
)
2084 dump_points_to_info_for (stderr
, var
);
2088 /* Dump points-to information into FILE. NOTE: This function is slow, as
2089 it needs to traverse the whole CFG looking for pointer SSA_NAMEs. */
2092 dump_points_to_info (FILE *file
)
2095 block_stmt_iterator si
;
2098 lang_hooks
.decl_printable_name (current_function_decl
, 2);
2099 referenced_var_iterator rvi
;
2102 fprintf (file
, "\n\nPointed-to sets for pointers in %s\n\n", fname
);
2104 /* First dump points-to information for the default definitions of
2105 pointer variables. This is necessary because default definitions are
2106 not part of the code. */
2107 FOR_EACH_REFERENCED_VAR (var
, rvi
)
2109 if (POINTER_TYPE_P (TREE_TYPE (var
)))
2111 tree def
= default_def (var
);
2113 dump_points_to_info_for (file
, def
);
2117 /* Dump points-to information for every pointer defined in the program. */
2122 for (phi
= phi_nodes (bb
); phi
; phi
= PHI_CHAIN (phi
))
2124 tree ptr
= PHI_RESULT (phi
);
2125 if (POINTER_TYPE_P (TREE_TYPE (ptr
)))
2126 dump_points_to_info_for (file
, ptr
);
2129 for (si
= bsi_start (bb
); !bsi_end_p (si
); bsi_next (&si
))
2131 tree stmt
= bsi_stmt (si
);
2133 FOR_EACH_SSA_TREE_OPERAND (def
, stmt
, iter
, SSA_OP_DEF
)
2134 if (POINTER_TYPE_P (TREE_TYPE (def
)))
2135 dump_points_to_info_for (file
, def
);
2139 fprintf (file
, "\n");
2143 /* Dump points-to info pointed to by PTO into STDERR. */
2146 debug_points_to_info (void)
2148 dump_points_to_info (stderr
);
2151 /* Dump to FILE the list of variables that may be aliasing VAR. */
2154 dump_may_aliases_for (FILE *file
, tree var
)
2156 VEC(tree
, gc
) *aliases
;
2158 if (TREE_CODE (var
) == SSA_NAME
)
2159 var
= SSA_NAME_VAR (var
);
2161 aliases
= var_ann (var
)->may_aliases
;
2166 fprintf (file
, "{ ");
2167 for (i
= 0; VEC_iterate (tree
, aliases
, i
, al
); i
++)
2169 print_generic_expr (file
, al
, dump_flags
);
2170 fprintf (file
, " ");
2172 fprintf (file
, "}");
2177 /* Dump to stderr the list of variables that may be aliasing VAR. */
2180 debug_may_aliases_for (tree var
)
2182 dump_may_aliases_for (stderr
, var
);
2185 /* Return true if VAR may be aliased. */
2188 may_be_aliased (tree var
)
2191 if (TREE_ADDRESSABLE (var
))
2194 /* Globally visible variables can have their addresses taken by other
2195 translation units. */
2198 && (MTAG_GLOBAL (var
) || TREE_PUBLIC (var
)))
2200 else if (!MTAG_P (var
)
2201 && (DECL_EXTERNAL (var
) || TREE_PUBLIC (var
)))
2204 /* Automatic variables can't have their addresses escape any other way.
2205 This must be after the check for global variables, as extern declarations
2206 do not have TREE_STATIC set. */
2207 if (!TREE_STATIC (var
))
2210 /* If we're in unit-at-a-time mode, then we must have seen all occurrences
2211 of address-of operators, and so we can trust TREE_ADDRESSABLE. Otherwise
2212 we can only be sure the variable isn't addressable if it's local to the
2213 current function. */
2214 if (flag_unit_at_a_time
)
2216 if (decl_function_context (var
) == current_function_decl
)
2223 /* Given two symbols return TRUE if one is in the alias set of the other. */
2225 is_aliased_with (tree tag
, tree sym
)
2228 VEC(tree
,gc
) *aliases
;
2231 if (var_ann (sym
)->is_alias_tag
)
2233 aliases
= var_ann (tag
)->may_aliases
;
2235 if (aliases
== NULL
)
2238 for (i
= 0; VEC_iterate (tree
, aliases
, i
, al
); i
++)
2244 aliases
= var_ann (sym
)->may_aliases
;
2246 if (aliases
== NULL
)
2249 for (i
= 0; VEC_iterate (tree
, aliases
, i
, al
); i
++)
2258 /* Add VAR to the list of may-aliases of PTR's type tag. If PTR
2259 doesn't already have a type tag, create one. */
2262 add_type_alias (tree ptr
, tree var
)
2264 VEC(tree
, gc
) *aliases
;
2266 var_ann_t ann
= var_ann (ptr
);
2268 VEC (tree
, heap
) *varvec
= NULL
;
2271 if (ann
->type_mem_tag
== NULL_TREE
)
2274 tree tag_type
= TREE_TYPE (TREE_TYPE (ptr
));
2275 HOST_WIDE_INT tag_set
= get_alias_set (tag_type
);
2276 safe_referenced_var_iterator rvi
;
2278 /* PTR doesn't have a type tag, create a new one and add VAR to
2279 the new tag's alias set.
2281 FIXME, This is slower than necessary. We need to determine
2282 whether there is another pointer Q with the same alias set as
2283 PTR. This could be sped up by having type tags associated
2285 FOR_EACH_REFERENCED_VAR_SAFE (q
, varvec
, rvi
)
2287 if (POINTER_TYPE_P (TREE_TYPE (q
))
2288 && tag_set
== get_alias_set (TREE_TYPE (TREE_TYPE (q
))))
2290 /* Found another pointer Q with the same alias set as
2291 the PTR's pointed-to type. If Q has a type tag, use
2292 it. Otherwise, create a new memory tag for PTR. */
2293 var_ann_t ann1
= var_ann (q
);
2294 if (ann1
->type_mem_tag
)
2295 ann
->type_mem_tag
= ann1
->type_mem_tag
;
2297 ann
->type_mem_tag
= create_memory_tag (tag_type
, true);
2302 /* Couldn't find any other pointer with a type tag we could use.
2303 Create a new memory tag for PTR. */
2304 ann
->type_mem_tag
= create_memory_tag (tag_type
, true);
2308 /* If VAR is not already PTR's type tag, add it to the may-alias set
2309 for PTR's type tag. */
2310 gcc_assert (!MTAG_P (var
));
2311 tag
= ann
->type_mem_tag
;
2313 /* If VAR has subvars, add the subvars to the tag instead of the
2315 if (var_can_have_subvars (var
)
2316 && (svars
= get_subvars_for_var (var
)))
2319 for (sv
= svars
; sv
; sv
= sv
->next
)
2320 add_may_alias (tag
, sv
->var
);
2323 add_may_alias (tag
, var
);
2325 /* TAG and its set of aliases need to be marked for renaming. */
2326 mark_sym_for_renaming (tag
);
2327 if ((aliases
= var_ann (tag
)->may_aliases
) != NULL
)
2329 for (i
= 0; VEC_iterate (tree
, aliases
, i
, al
); i
++)
2330 mark_sym_for_renaming (al
);
2333 /* If we had grouped aliases, VAR may have aliases of its own. Mark
2334 them for renaming as well. Other statements referencing the
2335 aliases of VAR will need to be updated. */
2336 if ((aliases
= var_ann (var
)->may_aliases
) != NULL
)
2338 for (i
= 0; VEC_iterate (tree
, aliases
, i
, al
); i
++)
2339 mark_sym_for_renaming (al
);
2341 VEC_free (tree
, heap
, varvec
);
2345 /* Create a new type tag for PTR. Construct the may-alias list of this type
2346 tag so that it has the aliasing of VAR.
2348 Note, the set of aliases represented by the new type tag are not marked
2352 new_type_alias (tree ptr
, tree var
)
2354 var_ann_t p_ann
= var_ann (ptr
);
2355 tree tag_type
= TREE_TYPE (TREE_TYPE (ptr
));
2356 var_ann_t v_ann
= var_ann (var
);
2360 gcc_assert (p_ann
->type_mem_tag
== NULL_TREE
);
2361 gcc_assert (!MTAG_P (var
));
2363 /* Add VAR to the may-alias set of PTR's new type tag. If VAR has
2364 subvars, add the subvars to the tag instead of the actual var. */
2365 if (var_can_have_subvars (var
)
2366 && (svars
= get_subvars_for_var (var
)))
2370 tag
= create_memory_tag (tag_type
, true);
2371 p_ann
->type_mem_tag
= tag
;
2373 for (sv
= svars
; sv
; sv
= sv
->next
)
2374 add_may_alias (tag
, sv
->var
);
2378 /* The following is based on code in add_stmt_operand to ensure that the
2379 same defs/uses/vdefs/vuses will be found after replacing a reference
2380 to var (or ARRAY_REF to var) with an INDIRECT_REF to ptr whose value
2381 is the address of var. */
2382 VEC(tree
, gc
) *aliases
= v_ann
->may_aliases
;
2384 if ((aliases
!= NULL
)
2385 && (VEC_length (tree
, aliases
) == 1))
2387 tree ali
= VEC_index (tree
, aliases
, 0);
2389 if (TREE_CODE (ali
) == TYPE_MEMORY_TAG
)
2391 p_ann
->type_mem_tag
= ali
;
2396 tag
= create_memory_tag (tag_type
, true);
2397 p_ann
->type_mem_tag
= tag
;
2399 if (aliases
== NULL
)
2400 add_may_alias (tag
, var
);
2406 for (i
= 0; VEC_iterate (tree
, aliases
, i
, al
); i
++)
2407 add_may_alias (tag
, al
);
2414 /* This represents the used range of a variable. */
2416 typedef struct used_part
2418 HOST_WIDE_INT minused
;
2419 HOST_WIDE_INT maxused
;
2420 /* True if we have an explicit use/def of some portion of this variable,
2421 even if it is all of it. i.e. a.b = 5 or temp = a.b. */
2423 /* True if we have an implicit use/def of some portion of this
2424 variable. Implicit uses occur when we can't tell what part we
2425 are referencing, and have to make conservative assumptions. */
2427 /* True if the structure is only written to or taken its address. */
2431 /* An array of used_part structures, indexed by variable uid. */
2433 static htab_t used_portions
;
2435 struct used_part_map
2441 /* Return true if the uid in the two used part maps are equal. */
2444 used_part_map_eq (const void *va
, const void *vb
)
2446 const struct used_part_map
*a
= (const struct used_part_map
*) va
;
2447 const struct used_part_map
*b
= (const struct used_part_map
*) vb
;
2448 return (a
->uid
== b
->uid
);
2451 /* Hash a from uid in a used_part_map. */
2454 used_part_map_hash (const void *item
)
2456 return ((const struct used_part_map
*)item
)->uid
;
2459 /* Free a used part map element. */
2462 free_used_part_map (void *item
)
2464 free (((struct used_part_map
*)item
)->to
);
2468 /* Lookup a used_part structure for a UID. */
2471 up_lookup (unsigned int uid
)
2473 struct used_part_map
*h
, in
;
2475 h
= (struct used_part_map
*) htab_find_with_hash (used_portions
, &in
, uid
);
2481 /* Insert the pair UID, TO into the used part hashtable. */
2484 up_insert (unsigned int uid
, used_part_t to
)
2486 struct used_part_map
*h
;
2489 h
= XNEW (struct used_part_map
);
2492 loc
= htab_find_slot_with_hash (used_portions
, h
,
2496 *(struct used_part_map
**) loc
= h
;
2500 /* Given a variable uid, UID, get or create the entry in the used portions
2501 table for the variable. */
2504 get_or_create_used_part_for (size_t uid
)
2507 if ((up
= up_lookup (uid
)) == NULL
)
2509 up
= XCNEW (struct used_part
);
2510 up
->minused
= INT_MAX
;
2512 up
->explicit_uses
= false;
2513 up
->implicit_uses
= false;
2514 up
->write_only
= true;
2521 /* Create and return a structure sub-variable for field type FIELD of
2525 create_sft (tree var
, tree field
)
2528 tree subvar
= create_tag_raw (STRUCT_FIELD_TAG
, field
, "SFT");
2530 /* We need to copy the various flags from VAR to SUBVAR, so that
2531 they are is_global_var iff the original variable was. */
2532 DECL_CONTEXT (subvar
) = DECL_CONTEXT (var
);
2533 MTAG_GLOBAL (subvar
) = DECL_EXTERNAL (var
);
2534 TREE_PUBLIC (subvar
) = TREE_PUBLIC (var
);
2535 TREE_STATIC (subvar
) = TREE_STATIC (var
);
2536 TREE_READONLY (subvar
) = TREE_READONLY (var
);
2538 /* Add the new variable to REFERENCED_VARS. */
2539 ann
= get_var_ann (subvar
);
2540 ann
->type_mem_tag
= NULL
;
2541 add_referenced_tmp_var (subvar
);
2542 SFT_PARENT_VAR (subvar
) = var
;
2548 /* Given an aggregate VAR, create the subvariables that represent its
2552 create_overlap_variables_for (tree var
)
2554 VEC(fieldoff_s
,heap
) *fieldstack
= NULL
;
2556 size_t uid
= DECL_UID (var
);
2558 up
= up_lookup (uid
);
2563 push_fields_onto_fieldstack (TREE_TYPE (var
), &fieldstack
, 0, NULL
);
2564 if (VEC_length (fieldoff_s
, fieldstack
) != 0)
2568 bool notokay
= false;
2571 HOST_WIDE_INT lastfooffset
= -1;
2572 HOST_WIDE_INT lastfosize
= -1;
2573 tree lastfotype
= NULL_TREE
;
2575 /* Not all fields have DECL_SIZE set, and those that don't, we don't
2576 know their size, and thus, can't handle.
2577 The same is true of fields with DECL_SIZE that is not an integer
2578 constant (such as variable sized fields).
2579 Fields with offsets which are not constant will have an offset < 0
2580 We *could* handle fields that are constant sized arrays, but
2581 currently don't. Doing so would require some extra changes to
2582 tree-ssa-operands.c. */
2584 for (i
= 0; VEC_iterate (fieldoff_s
, fieldstack
, i
, fo
); i
++)
2587 || TREE_CODE (fo
->size
) != INTEGER_CST
2596 /* The current heuristic we use is as follows:
2597 If the variable has no used portions in this function, no
2598 structure vars are created for it.
2600 If the variable has less than SALIAS_MAX_IMPLICIT_FIELDS,
2601 we always create structure vars for them.
2602 If the variable has more than SALIAS_MAX_IMPLICIT_FIELDS, and
2603 some explicit uses, we create structure vars for them.
2604 If the variable has more than SALIAS_MAX_IMPLICIT_FIELDS, and
2605 no explicit uses, we do not create structure vars for them.
2608 if (fieldcount
>= SALIAS_MAX_IMPLICIT_FIELDS
2609 && !up
->explicit_uses
)
2611 if (dump_file
&& (dump_flags
& TDF_DETAILS
))
2613 fprintf (dump_file
, "Variable ");
2614 print_generic_expr (dump_file
, var
, 0);
2615 fprintf (dump_file
, " has no explicit uses in this function, and is > SALIAS_MAX_IMPLICIT_FIELDS, so skipping\n");
2620 /* Bail out, if we can't create overlap variables. */
2623 VEC_free (fieldoff_s
, heap
, fieldstack
);
2627 /* Otherwise, create the variables. */
2628 subvars
= lookup_subvars_for_var (var
);
2630 sort_fieldstack (fieldstack
);
2632 for (i
= VEC_length (fieldoff_s
, fieldstack
);
2633 VEC_iterate (fieldoff_s
, fieldstack
, --i
, fo
);)
2636 HOST_WIDE_INT fosize
;
2639 fosize
= TREE_INT_CST_LOW (fo
->size
);
2640 currfotype
= fo
->type
;
2642 /* If this field isn't in the used portion,
2643 or it has the exact same offset and size as the last
2646 if (((fo
->offset
<= up
->minused
2647 && fo
->offset
+ fosize
<= up
->minused
)
2648 || fo
->offset
>= up
->maxused
)
2649 || (fo
->offset
== lastfooffset
2650 && fosize
== lastfosize
2651 && currfotype
== lastfotype
))
2653 sv
= GGC_NEW (struct subvar
);
2654 sv
->offset
= fo
->offset
;
2656 sv
->next
= *subvars
;
2657 sv
->var
= create_sft (var
, fo
->type
);
2661 fprintf (dump_file
, "structure field tag %s created for var %s",
2662 get_name (sv
->var
), get_name (var
));
2663 fprintf (dump_file
, " offset " HOST_WIDE_INT_PRINT_DEC
,
2665 fprintf (dump_file
, " size " HOST_WIDE_INT_PRINT_DEC
,
2667 fprintf (dump_file
, "\n");
2670 lastfotype
= currfotype
;
2671 lastfooffset
= fo
->offset
;
2672 lastfosize
= fosize
;
2676 /* Once we have created subvars, the original is no longer call
2677 clobbered on its own. Its call clobbered status depends
2678 completely on the call clobbered status of the subvars.
2680 add_referenced_var in the above loop will take care of
2681 marking subvars of global variables as call clobbered for us
2682 to start, since they are global as well. */
2683 clear_call_clobbered (var
);
2686 VEC_free (fieldoff_s
, heap
, fieldstack
);
2690 /* Find the conservative answer to the question of what portions of what
2691 structures are used by this statement. We assume that if we have a
2692 component ref with a known size + offset, that we only need that part
2693 of the structure. For unknown cases, or cases where we do something
2694 to the whole structure, we assume we need to create fields for the
2695 entire structure. */
2698 find_used_portions (tree
*tp
, int *walk_subtrees
, void *lhs_p
)
2700 switch (TREE_CODE (*tp
))
2703 /* Recurse manually here to track whether the use is in the
2704 LHS of an assignment. */
2705 find_used_portions (&TREE_OPERAND (*tp
, 0), walk_subtrees
, tp
);
2706 return find_used_portions (&TREE_OPERAND (*tp
, 1), walk_subtrees
, NULL
);
2712 HOST_WIDE_INT bitsize
;
2713 HOST_WIDE_INT bitmaxsize
;
2714 HOST_WIDE_INT bitpos
;
2716 ref
= get_ref_base_and_extent (*tp
, &bitpos
, &bitsize
, &bitmaxsize
);
2718 && var_can_have_subvars (ref
)
2719 && bitmaxsize
!= -1)
2721 size_t uid
= DECL_UID (ref
);
2724 up
= get_or_create_used_part_for (uid
);
2726 if (bitpos
<= up
->minused
)
2727 up
->minused
= bitpos
;
2728 if ((bitpos
+ bitmaxsize
>= up
->maxused
))
2729 up
->maxused
= bitpos
+ bitmaxsize
;
2731 if (bitsize
== bitmaxsize
)
2732 up
->explicit_uses
= true;
2734 up
->implicit_uses
= true;
2736 up
->write_only
= false;
2737 up_insert (uid
, up
);
2744 /* This is here to make sure we mark the entire base variable as used
2745 when you take its address. Because our used portion analysis is
2746 simple, we aren't looking at casts or pointer arithmetic to see what
2747 happens when you take the address. */
2750 tree var
= get_base_address (TREE_OPERAND (*tp
, 0));
2755 && var_can_have_subvars (var
)
2756 && TREE_CODE (DECL_SIZE (var
)) == INTEGER_CST
)
2759 size_t uid
= DECL_UID (var
);
2761 up
= get_or_create_used_part_for (uid
);
2764 up
->maxused
= TREE_INT_CST_LOW (DECL_SIZE (var
));
2765 up
->implicit_uses
= true;
2767 up_insert (uid
, up
);
2779 && var_can_have_subvars (var
)
2780 && TREE_CODE (DECL_SIZE (var
)) == INTEGER_CST
)
2783 size_t uid
= DECL_UID (var
);
2785 up
= get_or_create_used_part_for (uid
);
2788 up
->maxused
= TREE_INT_CST_LOW (DECL_SIZE (var
));
2789 up
->implicit_uses
= true;
2791 up_insert (uid
, up
);
2805 /* Create structure field variables for structures used in this function. */
2808 create_structure_vars (void)
2811 safe_referenced_var_iterator rvi
;
2812 VEC (tree
, heap
) *varvec
= NULL
;
2815 used_portions
= htab_create (10, used_part_map_hash
, used_part_map_eq
,
2816 free_used_part_map
);
2820 block_stmt_iterator bsi
;
2821 for (bsi
= bsi_start (bb
); !bsi_end_p (bsi
); bsi_next (&bsi
))
2823 walk_tree_without_duplicates (bsi_stmt_ptr (bsi
),
2828 FOR_EACH_REFERENCED_VAR_SAFE (var
, varvec
, rvi
)
2830 /* The C++ FE creates vars without DECL_SIZE set, for some reason. */
2833 && var_can_have_subvars (var
)
2835 && TREE_CODE (DECL_SIZE (var
)) == INTEGER_CST
)
2836 create_overlap_variables_for (var
);
2838 htab_delete (used_portions
);
2839 VEC_free (tree
, heap
, varvec
);
2844 gate_structure_vars (void)
2846 return flag_tree_salias
!= 0;
2849 struct tree_opt_pass pass_create_structure_vars
=
2851 "salias", /* name */
2852 gate_structure_vars
, /* gate */
2853 create_structure_vars
, /* execute */
2856 0, /* static_pass_number */
2858 PROP_cfg
, /* properties_required */
2859 0, /* properties_provided */
2860 0, /* properties_destroyed */
2861 0, /* todo_flags_start */
2862 TODO_dump_func
, /* todo_flags_finish */